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Household Electronics. Diodes & Rectification Component Identification. I. I. I. I. V. V. V. V. Diodes. Diodes are essentially one-way current gates Symbolized by: Current vs. voltage graphs:. acts just like a wire (will support arbitrary current) provided that
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Household Electronics Diodes & Rectification Component Identification
UCSD: Physics 8; 2006 I I I I V V V V Diodes • Diodes are essentially one-way current gates • Symbolized by: • Current vs. voltage graphs: acts just like a wire (will support arbitrary current) provided that voltage is positive 0.6 V plain resistor diode idealized diode WAY idealized diode the direction the arrow points in the diode symbol is the direction that current will flow current flows no current flows
UCSD: Physics 8; 2006 Diode Makeup • Diodes are made of semiconductors (usually silicon) • Essentially a stack of p-doped and n-doped silicon to form a p-n junction • doping means deliberate impurities that contribute extra electrons (n-doped) or “holes” for electrons (p-doped) • Transistors are n-p-n ir p-n-p arrangements of semiconductors (like oreo cookies) p-type n-type
UCSD: Physics 8; 2006 LEDs: Light-Emitting Diodes • Main difference is material is more exotic than silicon used in ordinary diodes/transistors • typically 2-volt drop instead of 0.6 V drop • When electron flows through LED, loses energy by emitting a photon of light rather than vibrating lattice (heat) • Anything with an LED cares about the battery orientation (it’s still a diode, after all) • LED efficiency is 30% (compare to incandescent bulb at 10%)
UCSD: Physics 8; 2006 Getting DC back out of AC • AC provides a means for us to distribute electrical power, but most devices actually want DC • bulbs, toasters, heaters, fans don’t care: plug straight in • sophisticated devices care because they have diodes and transistors that require a certain polarity • rather than oscillating polarity derived from AC • this is why battery orientation matters in most electronics • Use diodes to “rectify” AC signal • Simplest rectifier uses one diode: input voltage AC source load diode only conducts when input voltage is positive voltage seen by load
UCSD: Physics 8; 2006 Doing Better: Full-wave Diode Bridge • The diode in the rectifying circuit simply prevented the negative swing of voltage from conducting • but this wastes half the available cycle • also very irregular (bumpy): far from a “good” DC source • By using four diodes, you can recover the negative swing: B & C conduct input voltage A B AC source A & D conduct load C D voltage seen by load
UCSD: Physics 8; 2006 Smoothing out the Bumps • Still a bumpy ride, but we can smooth this out with a capacitor • capacitors have capacity for storing charge • acts like a reservoir to supply current during low spots • voltage regulator smoothes out remaining ripple A B capacitor AC source load C D
UCSD: Physics 8; 2006 Voltage Regulator: Setting the Voltage • Can trim down ripply voltage to precise, rock-steady value • Now things get complicated! • We are now in the realm of integrated circuits (ICs) • ICs are whole circuits in small packages • ICs contain resistors, capacitors, diodes, transistors, etc.
UCSD: Physics 8; 2006 Transistors: a brief glimpse • Transistors have made our modern world possible • Sort-of like diodes end-to-end (npn and pnp junctions • but the sandwiched junction is very thin, and this is important • A small current on the “base” can control a large current flowing from “collector” to “emitter” • Can be used as an amplifier • make a weak signal stronger • Or used as a switch • pedal-to-the-metal saturation regime • Both are incredibly useful
UCSD: Physics 8; 2006 Operational Amplifiers (Op-amps) • In essence, an op-amp is an idealized transistor/amplifier • Has > 20 transistors inside • Idyllic properties: • linear amplification • temperature insensitivity • versatile • So useful that electronics builders have trays full of them, and use them like “jelly-beans”
UCSD: Physics 8; 2006 Assignments/Announcements • Q/O #2 due tomorrow by 6 PM • Midterm 5/04 (next Thu.) 2PM WLH 2005 • will post study guide on course website • will have review session TBA • Use Green Scantron: Form No.: X-101864 • Bring #2 pencil, calculators okay